Hydrogenation of CO2 to methanol and CO on Cu/ZnO/Al2O3: Is there a common intermediate or not?

被引:251
|
作者
Kunkes, Edward L. [1 ]
Studt, Felix [2 ,5 ]
Abild-Pedersen, Frank [2 ,5 ]
Schloegl, Robert [1 ,3 ]
Behrens, Malte [1 ,4 ]
机构
[1] Max Planck Gesell, Fritz Haber Inst, Abt Anorgan Chem, D-14195 Berlin, Germany
[2] SLAC Natl Accelerator Lab, SUNCAT Ctr Interface Sci & Catalysis, Menlo Pk, CA 94025 USA
[3] Max Planck Inst Chem Energy Convers, Heterogeneous React Dept, D-45470 Mulheim, Germany
[4] Univ Duisburg Essen, Fac Chem, Ctr Nanointegrat Duisburg Essen CENIDE, D-45141 Essen, Germany
[5] Stanford Univ, Dept Chem Engn, Stanford, CA 94305 USA
来源
JOURNAL OF CATALYSIS | 2015年 / 328卷
关键词
H/D substitution; Methanol; Copper; Reverse water gas shift; DFT; Kinetics; Mechanism; CO2; hydrogenation; GAS SHIFT REACTION; FISCHER-TROPSCH SYNTHESIS; ACTIVE-SITE; SYNTHESIS CATALYSTS; STRUCTURE SENSITIVITY; STRUCTURAL-CHANGES; AMMONIA-SYNTHESIS; CARBON-DIOXIDE; COPPER; SURFACE;
D O I
10.1016/j.jcat.2014.12.016
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
H/D exchange experiments on a Cu/ZnO/Al2O3 catalyst have shown that methanol synthesis and RWGS display a strong thermodynamic isotope effect, which is attributed to differences in the zero-point energy of hydrogenated vs. deuterated species. The effect is larger for methanol synthesis and substantially increases the equilibrium yield in deuterated syngas. In the kinetic regime of CO2 hydrogenation, an inverse kinetic isotope effect of H/D substitution was observed, which is stronger for methanol synthesis than for CO formation suggesting that the two reactions do not share a common intermediate. Similar observations were also made on other catalysts such as Cu/MgO, Cu/SiO2, and Pd/SiO2. In contrast to CO2 hydrogenation, the CO hydrogenation on Cu/ZnO/Al2O3 did not show such a strong kinetic isotope effect indicating that methanol formation from CO2 does not proceed via consecutive reverse water gas shift and CO hydrogenation steps. The inverse KIE is consistent with formate hydrogenation being the rate-determining step of methanol synthesis from CO2. Differences in the extent of product inhibition by water, observed for methanol synthesis and reverse water gas shift indicate that the two reactions proceed on different surface sites in a parallel manner. The consequences for catalyst design for effective methanol synthesis from CO2 are discussed. (C) 2014 Elsevier Inc. All rights reserved.
引用
收藏
页码:43 / 48
页数:6
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